Product of a method for manufacturing non-seamed stone corners for veneer stone surfaces

ABSTRACT

A product of a method is disclosed, the method being for construction of non-seamed stone corners for use on outside edges formed by joining thin stone walls at right angles. Thin stone is used to lay the field of the walls. In the method, two cuts are made in a building stone, removing a residual piece and leaving a corner stone with sides ½ inch to 3 inch thick to match the thickness of the thin stone on the field of the walls. These corner stones are the product of the method and are laid on the corner formed by the right angle joint between the walls, giving the illusion of a thick building stone wall with nearly the low cost and easy laying of thin stone. Where the residual piece is large enough, it is used to cut a second corner stone in the same manner.

This application is a divisional of pending application Ser. No.10/682,431 of the same subject matter, which is hereby incorporatedherein by reference, and which was a continuation in part fromapplication Ser. No. 10/195,435 of the same subject matter subsequentlyissued as U.S. Pat. No. 6,659,099.

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention generally relates to stone masonry, and inparticular to the construction of stone surfaces and corners usingveneer stone.

2. Background Description

Formerly stone is laid as a structural component or as an aestheticcladding or veneer on houses, buildings, walls, chimneys and as pavingor flooring.

Stone comes in different types: thin stone one-half inch to three inchesthick that is either a field stone or is quarried and split to theappropriate size; and building stone, which is a three inch to nine inchthick stone that is either a field stone or is quarried and split to theappropriate size. Thin stone and building stone are generally the samestone except for their different thicknesses.

There are many other types of stone: flag stone, granite, marble,dimensional stone that typically comes in thin panels flat or polished.Also there are boulders and edging, none of which are of concern to thepresent invention. Only thin stone and building stone are of concern tothe present invention.

The advantages and disadvantages of thin stone are as follows. Thinstone is inexpensive to buy, easy and inexpensive to lay, and easy andinexpensive to transport. However, thin stone leaves an unsightly jointon the outside corners of the wall, house, building or whatever is beinglaid. At the outside corners, the thickness of the stone can be readilyascertained because the thin edge of the stone is visible, whichshatters the illusion of a thick (4 inch to 9 inch) stone cladding mostpreferred by customers. It should be noted that inside corners are not aproblem, because the thin edges do not show and there is no differencein the appearance between building stone and thin stone. The difficultyis with the external corner.

There are two inadequate solutions in the prior art. First, buildingstone is laid instead of thin stone, which solves the problem ofunsightly corners of thin stone. The down side of building stone is it'sexpensive to buy, hard and expensive to lay, and heavy and expensive totransport.

Second, culture or imitation stone may be used to provide an illusion ofthick stone at the corners. Culture stone is made of poured and castconcrete to which is applied a thin cladding layer of simulated rock onthe front and edges. Culture stone comes in a two part system. Flatstones (½ inch to 3 inch thick) laid on the wall surface and cornerpieces shaped like a 90 degree “L” (½ inch to 3 inches thick) laid onthe corners of the wall. Laid together, these surface and corner piecesgive the illusion of thick stone, but it is light in weight compared tothick stone and it has the easy laying character of thin stone.

The drawbacks to this solution are as follows: culture stone costs asmuch per square foot of surface area as thick building stone. Culturestone can't be cleaned with commercial acid based masonry cleaners toremove mortar stains, as this would corrode the “stone” appearance andvoid the warranty. Culture stone can't be used in constant contact withwater (ponds, swimming pools and the like), unlike real stone.Furthermore, culture stone doesn't lend itself to fit and finish as wellas thin stone. Typically, thin stone is trimmed a bit with a hammerand/or flipped over to fit in various spots in a wall. FIG. 2A shows athin stone 200 with edges 210. Trimming the thin stone 200 reveals a newedge 220, which has the same texture and attributes as the stone itself.Culture stone trimmed up exposes the unsightly inside of the piece sincethe stone look of the piece is provided by a thin coating. Culture stonecan't be flipped over to fit a space since the coating is only on thefront. FIG. 2B shows a culture stone 250 with edges 260. Trimming theculture stone 250 reveals a new edge 270, which does not have thecladding of edges 260. Instead, the edge 270 shows a cladding layer 275(not shown to scale) formed over concrete 280.

It is to be noted that another potential solution is not workable.Culture stone corners cannot be used with thin stone walls because thetexture of the culture stone cladding is noticeably different from thinstone, and makes the corners unsightly on that account.

SUMMARY OF THE INVENTION

It is therefore an object of the present invention to provide a way ofconstructing outside corner stones for veneer stone surfaces which hidethe seams which appear when thin stone veneer is used at the corners.

Another object of the invention is to provide for efficient use ofbuilding stone by making two outside corner stones from a singlebuilding stone.

The invention is implemented as follows. On a typical wall utilize thinstone to lay the field of the wall. Then cut 90 degree corners out ofbuilding stone squares and rectangles so as to leave a corner piece ½inch to 3 inch thick to match the thickness of the thin stone on thefield of the wall. Lay these on the corners of the wall. This will givethe illusion of a thick building stone wall with nearly the low cost andeasy laying of thin stone; the wall with these corner pieces costs muchless than a wall laid with culture stone, and is nearly as light.

In one embodiment, the method of the invention constructs non-seamedstone corners for first and second thin stone walls of thickness T1 andT2, respectively, joined at right angles at an external edge, byselecting a building stone having a height H, a depth D and a width W,the building stone having top and bottom surfaces H1 and H2,respectively, front and back surfaces D1 and D2, respectively, and leftand right surfaces W1 and W2, respectively. Then a first cut is made inthe selected building stone, the plane of the first cut being parallelto the plane of surface W1 and extending to a uniform depth from surfaceH1, such that the distance between the plane of the first cut and theplane of surface W1 is T1, and such that the uniform depth is equal to(H-T2). Then a second cut is made in the building stone, the plane ofthe second cut being parallel to the plane of surface H1 and extendingto a second uniform depth from surface W2, such that the distancebetween the plane of the second cut and the plane of surface H2 is T2,and such that the second uniform depth is equal to (W-T1).

These two cuts separate from the building stone a residual piece,leaving a corner stone. In a further embodiment of the invention, theresidual piece is large enough for use in making a second corner stone.The residual piece is re-oriented as a workpiece so that neither theleft surface nor the bottom surface is formed by either the first cut orthe second cut, since the left and bottom surfaces (as viewed inpreparation for the initial cut) will show on the corner and should be anatural stone surface rather than a saw cut surface. Three suchre-orientations are possible. After such re-orientation, the residualpiece will have a height H′, a width W′ and a depth D′. The residualpiece will also have top and bottom surfaces H′1 and H′2, respectively,left and right surfaces W′1 and W′2 respectively, and front and backsurfaces D′1 and D′2, respectively. Essentially the same method used tocreate the first corner stone is then used upon the re-oriented residualpiece to create a second corner stone. A third cut is made in theresidual piece, the plane of the third cut being parallel to the planeof surface W′1 and extending to a third uniform depth from surface H′1,such that the distance between the plane of the third cut and the planeof surface W′1 is T1, and such that the third uniform depth is equal to(H′-T2). A fourth cut is made in the residual piece, the plane of thefourth cut being parallel to the plane of surface H′1 and extending to afourth uniform depth from surface W′2, such that the distance betweenthe plane of the fourth cut and the plane of surface H′2 is T2, and suchthat the fourth uniform depth is equal to (W′-T1).

In a second embodiment, as in the first, the method of the inventionconstructs non-seamed stone corners for first and second thin stonewalls of thickness T1 and T2, respectively, joined at right angles at anexternal edge, by selecting a building stone having a height H, a depthD and a width W, the building stone having top and bottom surfaces H1and H2, respectively, front and back surfaces D1 and D2, respectively,and left and right surfaces W1 and W2, respectively. The two cutsnecessary to produce the non-seamed stone corner are made simultaneouslyby orienting the stone in a right angled trough which slopes downwardand within which is mounted circular saw blades at right angles to oneanother. The saw blades rotate in planes parallel to the respectivesides of the trough and are adjusted so that the distances between theblade and the side of the trough are T1 and T2, respectively. It issufficient if the clearance between the cutting edges of the blades isabout an eighth of an inch. The dimensions H and W of the stone blockmust be less than the diameter of the respective saw blades, but thedepth D can be longer.

In this embodiment, in order to provide for control of thicknesses T1and T2, the respective saw blades are mounted so as to allow for twodegrees of freedom. A first degree of freedom is the distance betweenthe plane of the saw and the plane of the side of the trough which isparallel to the plane of the saw. A second degree of freedom is movementof the shaft of the saw blade along a line within the plane of thetrough side and perpendicular to the vee of the trough, in order toachieve a separation of about an eighth of an inch between the cuttingedges of the two saw blades. A further aspect of this embodiment isadjustable legs for the trough so that the downward slope of the troughfor a gravity feed of the stone to be cut may be varied from about tendegrees to about eighty degrees from the horizontal.

BRIEF DESCRIPTION OF THE DRAWINGS

The foregoing and other objects, aspects and advantages will be betterunderstood from the following detailed description of a preferredembodiment of the invention with reference to the drawings, in which:

FIGS. 1A through 1G are a sequence of drawings showing how thickbuilding stone is cut in accordance with the invention. FIG. 1A shows astationary saw assembly. FIG. 1B shows a thick stone working piece inthe saw assembly. FIG. 1C shows the working piece in the saw assemblyafter a first cut. FIG. 1D shows the working piece rotated inpreparation for a second cut. FIG. 1E shows the rotated working piece inthe saw assembly. FIG. 1F shows the working piece in the saw assemblyafter a second cut. FIG. 1G is a perspective diagram of a working pieceshowing both cuts and labeling the faces and dimensions of the workingpiece.

FIG. 2A shows a trimmed edge of thin stone. FIG. 2B shows a trimmed edgeof culture stone.

FIG. 3 is a series of cutaway drawings showing a top view of wallcorners constructed from thin stone (FIG. 3A), thick stone (FIG. 3B),thin stone with corners cut in accordance with the invention (FIG. 3C),and culture stone (FIG. 3D).

FIG. 4 is a series of perspective drawings showing an outside view ofwall corners constructed from thin stone (FIG. 4A), thick stone (FIG.4B), thin stone with corners cut in accordance with the invention (FIG.4C), and culture stone (FIG. 4D).

FIGS. 5A through 5C are a series of drawings showing how the secondembodiment of the invention is implemented. FIG. 5A shows a perspectiveview of the saw assembly used to cut the stone. FIG. 5B is a partialcutaway showing a slot in the chute for lateral movement of the sawshaft. FIG. 5C is a schematic showing the adjustments made in thepositioning of the saw blades in order to make cuts yielding stone withside thicknesses T1 and T2.

DETAILED DESCRIPTION OF A PREFERRED EMBODIMENT OF THE INVENTION

Stone corners in accordance with the invention can be made with twotypes of common masonry saws. The stationary saw 100 as shown in FIG. 1Acan cut either wet or dry. Stone can also be cut with a hand held saw(not shown). Utilizing recent breakthroughs in stone saw bladetechnology, the stationary saw is the easier, safer and faster saw forimplementing the invention. As shown in FIG. 1A, the stationary sawassembly includes a motor 116 connected by a drive arm 114 to saw blade110, which is protected by a saw blade safety cover 112. The saw blade110 is adjusted to a desired vertical height by rotating platform 126about axis 127 and tightening adjustable brace 128. The saw blade 110remains stationary during the cutting process. A workpiece (shown asitem 130 in FIG. 1B) is placed on table 118 abutting front stop 120.Table 118 has a groove 122 to allow cutting through a workpiece.

Now turning to FIG. 1C, using a typical 14 inch saw blade machine(stationary saw assembly 100), a reasonably square or rectangular stone(e.g. workpiece 130) is selected between 6 inches and 3 inches inheight, 6 inches and 3 inches in width, and 10 inches and 3 inches inlength. The saw blade 110 is set at a height above the table 118 equalto the thickness of the thin stone being used to lay the field of a wall(for example, 1½ inches above the table). The stone 130 is placed on thetable 118, which is movable front to back (shown by arrow 119) along theplane of the saw blade 110, square to the saw blade with the length ofthe stone 130 parallel to the blade 110. The stone 130 is moved side toside along the front stop of the table 118 until the blade 110 wouldengage the stone the desired distance (for example, 1½ inches) from theleft parallel face of the stone 130 when cutting commences. The sawmotor 116 is turned on and the table 118 with stone 130 abutting frontstop 120 is pushed entirely through the blade 110 and then pulled backto the start point. The motor 116 is then turned off. At this pointstone 130 (as shown in the cutaway of FIG. 1C) has a cut 135 whichleaves a stone thickness 142 (for example, 1½ inches) to the left of thecut 135 and a stone thickness 140 (for example, 1½ inches) below the cut135. The thickness 140 and thickness 142 correspond to the thickness ofthe thin stone used for the field of the wall being laid.

The stone 130 is then rolled to the left as shown in FIG. 1D so theformer left facing face of the stone (not shown) is now face down on thetable, still against the stop 120 and the length of the stone 130 isstill parallel to the saw blade 110. Horizontal edge 150 is nowvertical, vertical edge 152 is now horizontal, and cut 135 is nowperpendicular to saw blade 110. The rotated stone 130 is shown in FIG.1E. In preparation for the second cut, the stone 130 is moved side toside along the front stop 120 of the table 118 until the blade wouldengage the stone the desired distance (for example, 1½ inches) from theright parallel face of the stone when cutting commences. Turning now toFIG. 1F, the saw motor 116 is turned on and the table 118 with stone 130abutting front stop 120 is pushed entirely through the blade 110 andthen pulled back to the start point. The motor 116 is then turned off.The stone 130 now has a second cut 145, leaving corner 160. Sandblastthe backside of the corner stone 160 (i.e. the surfaces formed by cuts135 and 145) to roughen them so mortar can adhere to the stone.

The result of the cutting process is shown in a perspective drawing ofthe stone 130 in FIG. 1G. The stone 130 has height H, width W and depthD. Viewed in an orientation in preparation for the first cut 135, thetop and bottom surfaces are labeled as H1 and H2, respectively. Left andright surfaces are labeled W1 and W2, respectively. Front and backsurfaces are labeled D1 and D2, respectively. After second cut 145 thestone is separated into two pieces, the corner stone 160 and theresidual piece 170. First cut 135 is at a distance T1 from left face W1to a uniform depth of (H-T2) from top surface H1 toward bottom surfaceH2. Second cut 145 is at a distance T2 from bottom surface H2 to auniform depth of (W-T1) from right surface W2 toward left surface W1.

In a further implementation of the invention, the same stone workpiece130 may be cut into corner stone 160 using a saw assembly having two sawblades, as shown in FIG. 5A. The stone workpiece is a reasonably squareor rectangular stone between 10 inches and 3 inches in height, 10 inchesand 3 inches in width, and 24 inches and 3 inches in length. Theworkpiece 130 is placed at the top of a “V” shaped inclined chute 510formed of a sheet of 4′×8′ one quarter inch steel bent lengthwise on thecenterline to 90 degrees and set on adjustable legs 580 whereby thepoint of the “V” 520 points straight down and the chute 510 can beraised to any degree of incline from 10 degrees to 80 degrees. Gravityis used to pull the stone workpiece 130 down the chute 510 and through aset of spinning, 24 inch diameter stone cutting blades 530. The twoblades 530 are mounted about three feet from the high end of theinclined chute, set at 90 degrees to each other with the cutting edge ofthe blades one-eighth inch apart, each blade being parallel to theirrespective inside face 540 of the chute 510, each blade being adjustableabove their respective inside face 540 from one half to three inches,depending on the desired thickness of the respective side of thefinished stone corner.

As shown in cutaway FIG. 5B, the saw blades (not shown in FIG. 5B) aremounted on their respective shafts 550 running back through a slot 555in the chute 510 from their respective motors 560 (not shown in FIG.5B), which are mounted on the outside face 570 of the chute inaccordance with known art so as to be adjustable in and out (i.e. alongthe direction of the shaft) and up and down (i.e. laterally along theslot 555 in the respective side 540 of the chute 510, the slot 555running perpendicular to the direction of travel of the workpiece 130down the chute 510).

The positioning of the respective saw blades 530 by adjustment is shownwith respect to FIG. 5C, which is a view along axis “L” (shown in FIG.5B) of chute 510. The adjustment of the saw blades above the respectiveinside surfaces 540 is determined by the desired thicknesses T1 and T2,respectively, of the sides of the stone corner. The lateral adjustmentalong the slot 555 may be calculated as follows:X 1=S 1/2+T 2+α;X 2=S 2/2+T 1+α,where X1 is the distance from the shaft 550A of the first saw 540A tothe “V” corner 520 of the chute 510, S1 is the diameter of the first saw540A, X2 is the distance from the shaft 550B of the second saw 540B tothe “V” corner 520 of the chute 510, S2 is the diameter of the secondsaw 540B, and α is a small offset to achieve a blade separation of aboutone-eighth of an inch at the cutting edges. It will be observed that thedimensions H and W of the stone workpiece 130 must be less than X1 andX2, respectively, and as a practical matter the dimensions of H and Wmay be several inches less than the limits X1 and X2 in order to allowample clearance between the workpiece 130 and the saw blade shafts 550as the workpiece 130 travels down the chute 510.

The workpiece emerges in the shape of a 90 degree “L” non-seamed stonecorner as shown in FIG. 1G, with a left over rectangle that if largeenough can be run through the apparatus again producing another viablestone corner by orienting the residual stone so that its uncut sides arefacing the respective sides of the chute.

The stone corner 160 may now be laid in the wall, as may be seen withreference to FIG. 3C, which is a cutaway view from the top of the wall.Thin stones 340 have been laid along the field of the wall, with mortar302. The new stone corner 160 is shown laid as item 345. Although onlythe top edge 347 and a portion of the back side 348 appears in the FIG.3C, it is to be noted that the stone goes around the corner 305. Itshould also be noted that if the waste piece which is cut away, leavingcorner piece 160, is itself a reasonably large square or rectangularstone (as described above), another corner piece can be constructed,provided the first and second cuts are such that neither of the twoouter surfaces of the resulting corner piece (that is, the two surfaceswhich are visible when the corner is laid) were created by cuts 135 or145 from the first corner piece. In this event, there is an additionaleconomy from creating two corner pieces from a single building stone.

A thin stone wall having corner pieces in accordance with the inventionmay be contrasted with the prior art alternatives. A cutaway view fromthe top of the wall for the conventional thin stone veneer is shown inFIG. 3A. Thin stones 310 have been laid along the field of the wall,with mortar 302. A corner is made from thin stones 320 and 325, but itwill be seen that there is visible on the corner 305 an edge 327 and agap 328 which must be filled with mortar. A cutaway view from the top ofthe wall of a wall made with building stone in shown in FIG. 3B.Building stones 330 have been laid along the field of the wall, withmortar 302, and the corner is made from building stone 335. There is noconcern about an illusion of building stone, because the wall is in factconstructed of building stone.

FIG. 3D shows a cutaway view from the top of a wall constructed withculture stone. Culture stones 350 have been laid along the field of thewall, with mortar 302. A Culture stone corner 355 is laid over corner305. The back side 357 of the culture stone does not show from the frontview of the wall. The cutaway perspective view shows the thin cladding360 (not shown to scale) on the surface of the culture stones 350 and355. The cutaway also shows, on the wall side of the culture stones 350and 355 the interior concrete 370 over which the cladding 360 is formed.

Turning now to FIG. 4C there is shown the external appearance of a wallconstructed with corner pieces in accordance with the invention. Thinstones 440 are laid along the field of the wall, with corner pieces 445set along the vertical corner edge 446. Note that the corner edge 447 ofcorner piece 445 is seamless. It should also be noted that a similarseamless corner appearance applies to a wall laid with building stone,as shown in FIG. 4B. Building stones 430 are laid along the field of thewall, and are also used as corner pieces 435 along vertical corner edge436. Note that the corner edge 437 of stone 435 is seamless, being asolid building stone. Similarly, a wall laid with culture stone willhave a seamless vertical corner edge, as shown in FIG. 4D. Culturestones 450 are laid along the field of the wall. Culture corner pieces455 are laid along vertical corner edge 456. The corner edge 457 ofculture corner piece 455 has a seamless appearance.

In contrast, the vertical corner edge of a wall laid with thin stone hasa noticeable and undesirable seam, as shown in FIG. 4A. Thin stones 410are laid along the field of the wall. At the corner a thin stone 425 islaid on one wall and a thin stone 420 is laid on the other wall. Theedge 427 of thin stone 425 is visible on the corner. There is a mortarjoint 428 between edge 427 and thin stone 420. The combination of edge427 and mortar joint 428 along the vertical corner edge, forming anobvious and unsightly seam.

The invention improves upon all the prior art alternatives. It providesa seamless corner edge where two thin stone walls join. By using thinstone for laying the field of the wall, there is an advantage overbuilding stone walls because thin stone is lighter, and therefore isless expensive and easier to transport and lay. And thin stone with cutcorner pieces is more versatile than culture stone because it can beused in water, can be trimmed and flipped to fit in various spots in awall, and can be cleaned with commercial acid based masonry cleaners.

While the invention has been described in terms of preferredembodiments, those skilled in the art will recognize that the inventioncan be practiced with modification within the spirit and scope of theappended claims.

1. A non-seamed stone corner for first and second thin stone walls ofthickness T1 and T2, respectively, said first and second walls beingjoined at right angles at an external edge, the corner created by amethod comprising the steps of: selecting a building stone having aheight H, a depth D and a width W, said building stone having top andbottom surfaces H1 and H2, respectively, front and back surfaces D1 andD2, respectively, and left and right surfaces W1 and W2, respectively;orienting said building stone at the higher end of an inclined chutehaving perpendicular sides C1 and C2, such that surface W1 rests on sideC1 and surface H2 rests on side C2; adjusting dual stone cutting sawblades B1 and B2 mounted perpendicularly to one another and parallel torespective sides C1 and C2 in said chute, such that the distance betweenblade B1 and side C1 is T1 and the distance between blade B2 and side C2is T2, and the cutting edges of blades B1 and B2 have a clearance ofabout one-eighth of an inch; feeding said oriented building stone downsaid chute and through said saw blades; and removing from said buildingstone a residual piece, said removal step of the method leaving saidbuilding stone remainder as a corner stone.
 2. A non-seamed stone cornercreated by a method as in claim 1, the method further comprising thesteps of: sandblasting said corner stone at surfaces formed by saidfirst cut and said second cut; and laying said corner stone on saidexternal edge joining said first and second thin stone walls.
 3. Anon-seamed stone corner created by a method as in claim 1, wherein theheight H of said building stone is between three inches and ten inches,the width W of said building stone is between three inches and teninches, the depth D of said building stone is between three inches andtwenty-four inches, the thickness T1 of said first thin stone wall isone and one-half inches, and the thickness T2 of said second thin stonewall is one and one-half inches.
 4. A non-seamed stone corner created bya method as in claim 1, said method further comprising the steps of:re-orienting said residual piece in preparation for cutting so thatneither the surface facing side C1 nor the surface facing side C2 isformed by said first or second cuts, wherein the height H′ of saidre-oriented residual piece is between three inches and ten inches, thewidth W′ of said re-oriented residual piece is between three inches andten inches, the depth D′ of said re-oriented residual piece is betweenthree inches and twenty-four inches, said re-oriented residual piecehaving top and bottom surfaces H′1 and H′2, respectively, front and backsurfaces D′1 and D′2, respectively, and left and right surfaces W′1 andW′2, respectively; orienting said re-oriented residual piece at thehigher end of said inclined chute, such that surface W′1 rests on sideC1 and surface H′2 rests on side C2; feeding said re-oriented residualpiece down said chute and through said saw blades; and removing fromsaid residual piece a second residual piece, said removal step of themethod leaving said residual piece remainder as a second corner stone.5. A non-seamed stone corner created by a method as in claim 4, themethod further comprising the steps of: sandblasting said second cornerstone at surfaces formed by said third cut and said fourth cut; andlaying said second corner stone on said external edge joining said firstand second thin stone walls.
 6. A non-seamed stone corner created by amethod as in claim 4, wherein the thickness T1 of said first thin stonewall is one and one-half inches, and the thickness T2 of said secondthin stone wall is one and one-half inches.
 7. A non-seamed stone cornercreated by a method as in claim 2, wherein said corner stone is orientedso that said surface W1 of said corner stone is parallel to said firstthin stone wall and said surface H2 of said corner stone is parallel tosaid second thin stone wall.
 8. A non-seamed stone corner created by amethod as in claim 5, wherein said second corner stone is oriented sothat said surface W′1 of said second corner stone is parallel to saidfirst thin stone wall and said surface H′2 of said second corner stoneis parallel to said second thin stone wall.
 9. A non-seamed stone cornercreated by a method as in claim 1, wherein said clearance is obtained byadjusting a lateral position of a shaft F1 of blade B1 and a lateralposition of shaft F2 of blade B2 such that a nearest distance X1 alongside C1 between shaft F1 and an edge joining sides C1 and C2 isdetermined byX 1=S 1/2+T 2+α, and a nearest distance X2 along side C2 between shaftF2 and said edge is determined byX 2=S 2/2+T 1+α, where S1 is the diameter of blade B1, S2 is thediameter of blade B2, and α is about one-eighth of an inch.
 10. Anon-seamed stone corner created by a method as in claim 4, wherein insaid re-orienting step of the method the residual piece is rotated onehundred eighty degrees counterclockwise about an axis between andperpendicular to front and back surfaces of the residual piece.
 11. Anon-seamed stone corner for first and second thin stone walls ofthickness T1 and T2, respectively, said first and second walls beingjoined at right angles at an external edge, the corner created by amethod comprising the steps of: selecting a building stone having aheight H, a depth D and a width W, said building stone having top andbottom surfaces H1 and H2, respectively, front and back surfaces D1 andD2, respectively, and left and right surfaces W1 and W2, respectively;making a first cut in said building stone, the plane of said first cutbeing parallel to the plane of surface W1 and extending to a uniformdepth from surface H1, such that the distance between the plane of saidfirst cut and the plane of surface W1 is T1, and such that said uniformdepth is equal to (H-T2); making a second cut in said building stone,the plane of said second cut being parallel to the plane of surface H1and extending to a second uniform depth from surface W2, such that thedistance between the plane of said second cut and the plane of surfaceH2 is T2, and such that said second uniform depth is equal to (W-T1);and removing from said building stone a residual piece, said removalstep of the method leaving said building stone remainder as a cornerstone.
 12. A non-seamed stone corner created by a method as in claim 11,the method further comprising the steps of: sandblasting said cornerstone at surfaces formed by said first cut and said second cut; andlaying said corner stone on said external edge joining said first andsecond thin stone walls.
 13. A non-seamed stone corner created by amethod as in claim 11, wherein the height H of said building stone isbetween three inches and six inches, the width W of said building stoneis between three inches and six inches, the depth D of said buildingstone is between three inches and ten inches, the thickness T1 of saidfirst thin stone wall is one and one-half inches, and the thickness T2of said second thin stone wall is one and one-half inches.
 14. Anon-seamed stone corner created by a method as in claim 11, said methodfurther comprising the steps of: re-orienting said residual piece inpreparation for cutting so that neither the left surface nor the bottomsurface is formed by said first or second cuts, wherein the height H′ ofsaid re-oriented residual piece is between three inches and six inches,the width W′ of said re-oriented residual piece is between three inchesand six inches, the depth D′ of said re-oriented residual piece isbetween three inches and ten inches, said re-oriented residual piecehaving top and bottom surfaces H′1 and H′2, respectively, front and backsurfaces D′1 and D′2, respectively, and left and right surfaces W′1 andW′2, respectively; making a third cut in said residual piece, the planeof said third cut being parallel to the plane of surface W′1 andextending to a third uniform depth from top surface H′1, such that thedistance between the plane of said third cut and the plane of surfaceW′1 is T1, and such that said third uniform depth is equal to (H′-T2);making a fourth cut in said residual piece, the plane of said fourth cutbeing parallel to the plane of surface H′1 and extending to a fourthuniform depth from surface W′2, such that the distance between the planeof said fourth cut and the plane of bottom surface H′2 is T2, and suchthat said fourth uniform depth is equal to (W′-T1); and removing fromsaid residual piece a second residual piece, said removal step of themethod leaving said residual piece remainder as a second corner stone.15. A non-seamed stone corner created by a method as in claim 14, themethod further comprising the steps of: sandblasting said second cornerstone at surfaces formed by said third cut and said fourth cut; andlaying said second corner stone on said external edge joining said firstand second thin stone walls.
 16. A non-seamed stone corner created by amethod as in claim 14, wherein the thickness T1 of said first thin stonewall is one and one-half inches, and the thickness T2 of said secondthin stone wall is one and one-half inches.
 17. A non-seamed stonecorner created by a method as in claim 12, wherein said corner stone isoriented so that said surface W1 of said corner stone is parallel tosaid first thin stone wall and said surface H2 of said corner stone isparallel to said second thin stone wall.
 18. A non-seamed stone cornercreated by a method as in claim 15, wherein said second corner stone isoriented so that said surface W′1 of said second corner stone isparallel to said first thin stone wall and said surface H′2 of saidsecond corner stone is parallel to said second thin stone wall.
 19. Anon-seamed stone corner created by a method as in claim 11, wherein saidfirst and second cuts are made with a stationary saw and between saidfirst and second cuts the building stone is rotated ninety degreescounterclockwise as viewed from the front face.
 20. A non-seamed stonecorner created by a method as in claim 14, wherein in said re-orientingstep of the method the residual piece is rotated one hundred eightydegrees counterclockwise about an axis between and perpendicular tofront and back surfaces of the residual piece.
 21. A non-seamed stonecorner for first and second thin stone walls of thickness T1 and T2,respectively, said first and second walls being joined at right anglesat an external edge, the corner created by a method comprising the stepsof: selecting a building stone having a height H, a depth D and a widthW, said building stone having top and bottom surfaces H1 and H2,respectively, front and back surfaces D1 and D2, respectively, and leftand right surfaces W1 and W2, respectively; making two cuts in saidbuilding stone, the plane of a first cut being parallel to the plane ofsurface W1, such that the distance between the plane of said first cutand the plane of surface W1 is T1, the plane of a second cut beingparallel to the plane of surface H1, such that the distance between theplane of said second cut and the plane of surface H2 is T2; and removingfrom said building stone a residual piece, said removal step of themethod leaving said building stone remainder as a corner stone.
 22. Anon-seamed stone corner created by a method as in claim 21, wherein saidtwo cuts are made sequentially by a single saw blade.
 23. A non-seamedstone corner created by a method as in claim 22, wherein said two cutsare made sequentially by reorienting the building stone after the firstcut.
 24. A non-seamed stone corner created by a method as in claim 22,wherein said single saw blade is a circular saw.
 25. A non-seamed stonecorner created by a method as in claim 21, wherein the two cuts are madesimultaneously using two saw blades oriented at right angles.
 26. Anon-seamed stone corner created by a method as in claim 25, wherein eachof said two saw blades is a circular saw.
 27. A non-seamed stone cornercreated by a method as in claim 21, wherein at least one of said twocuts is comprised of a plurality of cuts in approximately the sameplane, each of said plurality of cuts being of approximately the samedepth.
 28. A non-seamed stone corner created by a method as in claim 21,wherein at least one of said two cuts is comprised of two separate cutsin approximately the same plane, each separate cut beginning atrespective opposite ends perpendicular to the plane of the cut and beingof approximately the same depth.
 29. A non-seamed stone corner createdby a method as in claim 21, wherein said first cut extends to a uniformdepth from surface H1, such that said uniform depth is equal to (H-T2).30. A non-seamed stone corner created by a method as in claim 21,wherein said second cut extends to a second uniform depth from surfaceW2, such that said second uniform depth is equal to (W-T1).